Magnetoresistive film, magnetoresistive head, and information regeneration apparatus

1. A magnetoresistive film comprising a multilayered film including: an underlayer; an antiferromagnetic layer formed on and in contact with the underlayer; a pinned magnetic layer having magnetization whose direction is fixed by the antiferromagnetic layer; and a free magnetic layer having magnetization whose direction changes in accordance with an external magnetic filed, and indicating a magnitude of resistance in accordance with an angle formed by the magnetization direction of the pinned magnetic layer and the magnetization direction of the free magnetic layer, wherein said pinned magnetic layer comprises a first soft magnetic layer and a second soft magnetic layer formed of soft magnetic materials and an antiparallel coupling middle layer, formed between the soft magnetic layers, for coupling the magnetizations of the soft magnetic layers to each other in opposite directions, said antiferromagnetic layer comprises an ordered-form antiferromagnetic material including Mn, and said underlayer comprises a metal selected from the group consisting of Ru, Os, Re, Tc, Cd, Ti, Zn, Al, Au, Ir, Pd, Pt, Rh, Ag, Nb, Mo, W, V, and -Ta or an alloy including an element of the selected metal.

2. The magnetoresistive film according to claim 1 wherein said underlayer comprises Ru or an alloy including Ru, instead of the metal selected from said group or the alloy including the selected metal element.

3. The magnetoresistive film according to claim 1 wherein said antiferromagnetic layer comprises a material containing 55 atom % or less of Mn and including an element selected from an element group consisting of Pd, Pt, Ru, Rh, Ir, Au, and Ni.

4. The magneto resistive film according to claim 1 , wherein the multilayered film further includes a nonmagnetic middle layer that is formed of a nonmagnetic conductive material and separates the pinned magnetic layer from the free magnetic layer, and wherein the multilayered film has a reverse lamination structure in which the antiferromagnetic layer, the pinned magnetic layer, the nonmagnetic middle layer, and the free magnetic layer are formed in order on the underlayer.

5. A magnetoresistive head comprising a magnetoresistive film which comprises a multilayered film including: an underlayer; an antiferromagnetic layer formed on and in contact with the underlayer; a pinned magnetic layer having magnetization whose direction is fixed by the antiferromagnetic layer; and a free magnetic layer having magnetization whose direction changes in accordance with an external magnetic field and which indicates a magnitude of resistance in accordance with an angle formed by the magnetization direction of the pinned magnetic layer and the magnetization direction of the free magnetic layer, and detecting the magnitude of the resistance of the magnetoresistive film to detect a strength of said external magnetic field, wherein said pinned magnetic layer comprises a first soft magnetic layer and a second soft magnetic layer formed of soft magnetic materials and an antiparallel coupling middle layer, formed between the soft magnetic layers, for coupling the magnetization of the soft magnetic layers to each other in opposite directions, said antiferromagnetic layer comprises an ordered-form antiferromagnetic material including Mn, and said underlayer comprises a metal selected from the group consisting of Ru, Os, Re, Tc, Cd, Ti, Zn, Al, Au, Ir, Pd, Pt, Rh, Ag, Nb, Mo, W, V, and -Ta or an alloy including an element of the selected metal.

6. The magneto resistive film according to claim 5 , wherein the multilayered film further includes a nonmagnetic middle layer that is formed of a nonmagnetic conductive material and separates the pinned magnetic layer from the free magnetic layer, and wherein the multilayered film has a reverse lamination structure in which the antiferromagnetic layer, the pinned magnetic layer, the nonmagnetic middle layer, and the free magnetic layer are formed in order on the underlayer.

7. An information regeneration apparatus comprising a magnetic head, disposed in the vicinity of or in contact with a magnetic recording medium on which information is recorded in accordance with a magnetization direction, for detecting magnetization directions of respective points of the magnetic recording medium, and regenerating the information in accordance with the magnetization directions of the respective points of said magnetic recording medium detected by the magnetic head, wherein said magnetic head comprises a magnetoresistive film which comprises a multilayered film including: an underlayer; an antiferromagnetic layer formed on and in contact with the underlayer; a pinned magnetic layer having magnetization whose direction is fixed by the antiferromagnetic layer; and a free magnetic layer having magnetization whose direction changes in accordance with an external magnetic field and which indicates a magnitude of resistance in accordance with an angle formed by the magnetization direction of the pinned magnetic layer and the magnetization direction of the free magnetic layer, and detects the magnitude of the resistance of the magnetoresistive film to detect a strength of said external magnetic field, said pinned magnetic layer comprises a first soft magnetic layer and a second soft magnetic layer formed of soft magnetic materials and an antiparallel coupling middle layer, formed between the soft magnetic layers, for coupling the magnetizations of the soft magnetic layers to each other in opposite directions, said antiferromagnetic layer comprises an ordered-form antiferromagnetic material including Mn, and said underlayer comprises a metal selected from the group consisting of Ru, Os, Re, Tc, Cd, Ti, Zn, Al, Au, Ir, Pd, Pt, Rh, Ag, Nb, Mo, W, V and -Ta or an alloy including an element of the selected metal.

8. The magneto resistive film according to claim 7 , wherein the multilayered film further includes a nonmagnetic middle layer that is formed of a nonmagnetic conductive material and separates the pinned magnetic layer from the free magnetic layer, and wherein the multilayered film has a reverse lamination structure in which the antiferromagnetic layer, the pinned magnetic layer, the nonmagnetic middle layer, and the free magnetic layer are formed in order on the underlayer.